CN109004314A - 一种高智能锂电池散热系统 - Google Patents

一种高智能锂电池散热系统 Download PDF

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CN109004314A
CN109004314A CN201810823593.XA CN201810823593A CN109004314A CN 109004314 A CN109004314 A CN 109004314A CN 201810823593 A CN201810823593 A CN 201810823593A CN 109004314 A CN109004314 A CN 109004314A
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刘肖俊
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Abstract

本发明提供一种高智能锂电池散热系统,包括箱体以及设置于所述箱体内部的控制器、用于存储数据信息的数据存储器、用于与外部移动终端进行通讯连接的无线通讯传输单元、用于对设备运行温度进行实时感测的温度传感器、用于在紧急状况下进行报警提示的报警器、用于对设备运行进行实时散热处理的散热器;在该所述箱体正面设置有用于进行信号展示的触摸显示屏以及若干个控制按钮;且在所述箱体侧面开设有散热窗口;所述箱体后部开设有多个功能插接口;本设备这样的结构设计可以对内部锂电池进行较好的降温处理,散热性能优良,且制作成本低,可靠度高。

Description

一种高智能锂电池散热系统
[技术领域]
本发明涉及锂电池散热系统技术领域,尤其涉及一种结构设计合理,能够有效控制电池芯内部温度的高智能锂电池散热系统。
[背景技术]
近些年,随着科技的不断发展和进步,电子类产品有了大幅度的推广和应用,然而,常用的电子类产品一般都采用可充电式锂电池作为能源供给,“锂电池”是一类由锂金属或锂合金为负极材料、使用非水电解质溶液的电池,废旧锂离子电池中的物质进入环境中会造成重金属镍、钴污染(包括砷),氟污染,有机物污染,粉尘和酸碱污染,由于广泛用于当前的各种需要电池供电的产品设备上,其是最具有实用价值的供电电源之一。在实际的应用过程中,锂电池是电动汽车的核心部件,其性能的高低直接影响电动汽车性能的好坏,然而锂电池一般体积较大,占据在车辆的底盘位置,其散热效果很差。
电极与电解液界面被视为电池的心脏,温度主要影响电极的反应速率与电解液的传输速度,因此,适当的温度环境是保持锂电池充放电性能的关键所在,然而,目前现有技术中还缺少针对锂电池较好的散热装置。
为了较好的解决上述问题,本领域的技术人员进行了大量的研发和实验,从锂电池散热设备的具体结构与功能部分入手进行改进和改善,并取得了较好的成绩。
[发明内容]
为克服现有技术所存在的问题,本发明提供一种结构设计合理,能够有效控制电池芯内部温度的高智能锂电池散热系统。
本发明解决技术问题的方案是提供一种高智能锂电池散热系统,包括箱体以及设置于所述箱体内部的控制器、用于存储数据信息的数据存储器、用于与外部移动终端进行通讯连接的无线通讯传输单元、用于对设备运行温度进行实时感测的温度传感器、用于在紧急状况下进行报警提示的报警器、用于对设备运行进行实时散热处理的散热器;在该所述箱体正面设置有用于进行信号展示的触摸显示屏以及若干个控制按钮;且在所述箱体侧面开设有散热窗口;所述箱体后部开设有多个功能插接口;该数据存储器、无线通讯传输单元、温度传感器、报警器、散热器、触摸显示屏、控制按钮、功能插接口与控制器电性连接;所述箱体内部开设有用于存放锂电池的锂电池仓,锂电池通过一固定装置放置于所述锂电池仓中;在所述锂电池仓中还依次设置有环绕锂电池的第一隔热板、第二隔热板和第三隔热板;所述箱体后部设置有蓄水箱安装板,且在该所述蓄水箱安装板上放置有蓄水箱;所述锂电池仓的侧壁上还盘旋状设置有与外部蓄水箱相连通的输水管道;蓄水箱中的水通过输水管道进入箱体内部,对内部环境进行降温处理;所述箱体正面还设置有进气管道连接管和排气管道连接管;各进气管道连接管和排气管道连接管分三路分别进入第一隔热板与锂电池仓的间隙空间、第一隔热板与第二隔热板的间隙空间、第二隔热板与第三隔热板的间隙空间以及第三隔热板与锂电池的间隙空间中;所述箱体外部还形成有第一散热材料层、第二散热材料层、第三散热材料层与第四散热材料层;且所述第一散热材料层为铝板层,第二散热材料层为石墨层,第三散热材料层为压敏胶粘剂层,第四散热材料层为散热膜层;所述第一散热材料层的厚度范围为0.15-0.42mm、第二散热材料层的厚度范围为0.28-0.47mm、第三散热材料层的厚度范围为0.29-0.31mm、第四散热材料层的厚度范围为0.15-0.42mm;该所述压敏胶粘剂层由以下重量份组分组成:丙烯酸酯类胶黏剂97.5份、异氰酸酯类交联剂0.1-0.3份、稀释剂25-48份、环氧类交联剂0.65-12份、偶氮化合物3.5-13份、松香树脂3-16份、N-亚硝基化合物6-13份、偶联剂0.25-2.5份、粘度为2500-3500cps的丙烯酸酯类的聚合物0.6-1.7份;且在所述第一散热材料层上均匀开设有若干个通气孔,各通气孔的孔径大小范围为0.4-1.2mm;所述第四散热材料层外侧形成有装饰材料层;在箱体正面还设置有用于进行人脸识别感应的人脸识别传感器、用于对产品运行进行控制的指纹识别器以及用于对外部光照强度进行实时感测的光感传感器;该人脸识别传感器、指纹识别器以及光感传感器与控制器电性连接。
优选地,所述蓄水箱中设置有水泵机构组件和用于实时感测蓄水箱中水量大小的红外传感器;该水泵机构组件、红外传感器与控制器电性连接。
优选地,所述无线通讯传输单元包括无线蓝牙单元、2.4G无线通讯单元、无线WiFi传输单元。
优选地,所述蓄水箱中灌注有冷却介质;且该冷却介质成分是由质量比为93-97%的150N三类基础油,1.0-4.0%的二酚基丙烷,0.015%甲基硅油或甲基硅油酯,0.25%磷酸三甲酚酯,0.3%硫化聚异丁烯,100PPM的破乳剂T1001或LZ5957,以及0.2-0.3%的琥珀酸酯磺酸盐组成。
优选地,所述锂电池包括外壳、正极柱、负极柱、隔膜和电解液,所述电解液包括锂盐、碳酸亚乙烯酯、丙磺酸内酯、联苯和溶剂,所述外壳包括纵横布置的多个加强筋,所述正极柱具有正极柱保护帽,所述负极柱具有负极柱保护帽。
优选地,所述箱体为长方体状;且长度范围为40-45cm;宽度范围为30-35cm;高度范围为40-60cm。
与现有技术相比,本发明一种高智能锂电池散热系统通过同时设置箱体11以及设置于所述箱体11内部的控制器、用于存储数据信息的数据存储器、用于与外部移动终端进行通讯连接的无线通讯传输单元、用于对设备运行温度进行实时感测的温度传感器、用于在紧急状况下进行报警提示的报警器、用于对设备运行进行实时散热处理的散热器,且在锂电池仓中还依次设置环绕锂电池13的第一隔热板117、第二隔热板118和第三隔热板119,箱体11后部设置蓄水箱安装板12,且在该蓄水箱安装板12上放置蓄水箱121,锂电池仓的侧壁上还盘旋状设置与外部蓄水箱121相连通的输水管道,蓄水箱121中的水通过输水管道进入箱体11内部,对内部环境进行降温处理,本设备这样的结构设计可以对内部锂电池13进行较好的降温处理,散热性能优良,且制作成本低,可靠度高。
[附图说明]
图1和图2是本发明一种高智能锂电池散热系统的立体状态结构示意图。
[具体实施方式]
为使本发明的目的,技术方案及优点更加清楚明白,以下结合附图及实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用于解释本发明,并不用于限定此发明。
请参阅图1和图2,本发明一种高智能锂电池散热系统1包括箱体11以及设置于所述箱体11内部的控制器、用于存储数据信息的数据存储器、用于与外部移动终端进行通讯连接的无线通讯传输单元、用于对设备运行温度进行实时感测的温度传感器、用于在紧急状况下进行报警提示的报警器、用于对设备运行进行实时散热处理的散热器;在该所述箱体11正面设置有用于进行信号展示的触摸显示屏112以及若干个控制按钮113;且在所述箱体11侧面开设有散热窗口11;所述箱体11后部开设有多个功能插接口116;该数据存储器、无线通讯传输单元、温度传感器、报警器、散热器、触摸显示屏112、控制按钮113、功能插接口116与控制器电性连接;所述箱体11内部开设有用于存放锂电池13的锂电池仓,锂电池13通过一固定装置放置于所述锂电池仓中;在所述锂电池仓中还依次设置有环绕锂电池13的第一隔热板117、第二隔热板118和第三隔热板119;所述箱体11后部设置有蓄水箱安装板12,且在该所述蓄水箱安装板12上放置有蓄水箱121;所述锂电池仓的侧壁上还盘旋状设置有与外部蓄水箱121相连通的输水管道;蓄水箱121中的水通过输水管道进入箱体11内部,对内部环境进行降温处理;所述箱体11正面还设置有进气管道连接管114和排气管道连接管115;各进气管道连接管114和排气管道连接管115分三路分别进入第一隔热板117与锂电池仓的间隙空间、第一隔热板117与第二隔热板118的间隙空间、第二隔热板118与第三隔热板119的间隙空间以及第三隔热板119与锂电池13的间隙空间中;所述箱体11外部还形成有第一散热材料层、第二散热材料层、第三散热材料层与第四散热材料层;且所述第一散热材料层为铝板层,第二散热材料层为石墨层,第三散热材料层为压敏胶粘剂层,第四散热材料层为散热膜层;所述第一散热材料层的厚度范围为0.15-0.42mm、第二散热材料层的厚度范围为0.28-0.47mm、第三散热材料层的厚度范围为0.29-0.31mm、第四散热材料层的厚度范围为0.15-0.42mm;该所述压敏胶粘剂层由以下重量份组分组成:丙烯酸酯类胶黏剂97.5份、异氰酸酯类交联剂0.1-0.3份、稀释剂25-48份、环氧类交联剂0.65-12份、偶氮化合物3.5-13份、松香树脂3-16份、N-亚硝基化合物6-13份、偶联剂0.25-2.5份、粘度为2500-3500cps的丙烯酸酯类的聚合物0.6-1.7份;且在所述第一散热材料层上均匀开设有若干个通气孔,各通气孔的孔径大小范围为0.4-1.2mm;所述第四散热材料层外侧形成有装饰材料层;在箱体11正面还设置有用于进行人脸识别感应的人脸识别传感器、用于对产品运行进行控制的指纹识别器以及用于对外部光照强度进行实时感测的光感传感器;该人脸识别传感器、指纹识别器以及光感传感器与控制器电性连接。
通过同时设置箱体11以及设置于所述箱体11内部的控制器、用于存储数据信息的数据存储器、用于与外部移动终端进行通讯连接的无线通讯传输单元、用于对设备运行温度进行实时感测的温度传感器、用于在紧急状况下进行报警提示的报警器、用于对设备运行进行实时散热处理的散热器,且在锂电池仓中还依次设置环绕锂电池13的第一隔热板117、第二隔热板118和第三隔热板119,箱体11后部设置蓄水箱安装板12,且在该蓄水箱安装板12上放置蓄水箱121,锂电池仓的侧壁上还盘旋状设置与外部蓄水箱121相连通的输水管道,蓄水箱121中的水通过输水管道进入箱体11内部,对内部环境进行降温处理,本设备这样的结构设计可以对内部锂电池13进行较好的降温处理,散热性能优良,且制作成本低,可靠度高。
优选地,所述蓄水箱121中设置有水泵机构组件和用于实时感测蓄水箱中水量大小的红外传感器;该水泵机构组件、红外传感器与控制器电性连接。
优选地,所述无线通讯传输单元包括无线蓝牙单元、2.4G无线通讯单元、无线WiFi传输单元。
优选地,所述蓄水箱121中灌注有冷却介质;且该冷却介质成分是由质量比为93-97%的150N三类基础油,1.0-4.0%的二酚基丙烷,0.015%甲基硅油或甲基硅油酯,0.25%磷酸三甲酚酯,0.3%硫化聚异丁烯,100PPM的破乳剂T1001或LZ5957,以及0.2-0.3%的琥珀酸酯磺酸盐组成。
优选地,所述锂电池13包括外壳、正极柱、负极柱、隔膜和电解液,所述电解液包括锂盐、碳酸亚乙烯酯、丙磺酸内酯、联苯和溶剂,所述外壳包括纵横布置的多个加强筋,所述正极柱具有正极柱保护帽,所述负极柱具有负极柱保护帽。
优选地,所述箱体11为长方体状;且长度范围为40-45cm;宽度范围为30-35cm;高度范围为40-60cm。
与现有技术相比,本发明一种高智能锂电池散热系统1通过同时设置箱体11以及设置于所述箱体11内部的控制器、用于存储数据信息的数据存储器、用于与外部移动终端进行通讯连接的无线通讯传输单元、用于对设备运行温度进行实时感测的温度传感器、用于在紧急状况下进行报警提示的报警器、用于对设备运行进行实时散热处理的散热器,且在锂电池仓中还依次设置环绕锂电池13的第一隔热板117、第二隔热板118和第三隔热板119,箱体11后部设置蓄水箱安装板12,且在该蓄水箱安装板12上放置蓄水箱121,锂电池仓的侧壁上还盘旋状设置与外部蓄水箱121相连通的输水管道,蓄水箱121中的水通过输水管道进入箱体11内部,对内部环境进行降温处理,本设备这样的结构设计可以对内部锂电池13进行较好的降温处理,散热性能优良,且制作成本低,可靠度高。
以上所述的本发明实施方式,并不构成对本发明保护范围的限定。任何在本发明的精神和原则之内所作的修改、等同替换和改进等,均应包含在本发明的权利要求保护范围之内。

Claims (6)

1.一种高智能锂电池散热系统,其特征在于:包括箱体以及设置于所述箱体内部的控制器、用于存储数据信息的数据存储器、用于与外部移动终端进行通讯连接的无线通讯传输单元、用于对设备运行温度进行实时感测的温度传感器、用于在紧急状况下进行报警提示的报警器、用于对设备运行进行实时散热处理的散热器;在该所述箱体正面设置有用于进行信号展示的触摸显示屏以及若干个控制按钮;且在所述箱体侧面开设有散热窗口;所述箱体后部开设有多个功能插接口;该数据存储器、无线通讯传输单元、温度传感器、报警器、散热器、触摸显示屏、控制按钮、功能插接口与控制器电性连接;所述箱体内部开设有用于存放锂电池的锂电池仓,锂电池通过一固定装置放置于所述锂电池仓中;在所述锂电池仓中还依次设置有环绕锂电池的第一隔热板、第二隔热板和第三隔热板;所述箱体后部设置有蓄水箱安装板,且在该所述蓄水箱安装板上放置有蓄水箱;所述锂电池仓的侧壁上还盘旋状设置有与外部蓄水箱相连通的输水管道;蓄水箱中的水通过输水管道进入箱体内部,对内部环境进行降温处理;所述箱体正面还设置有进气管道连接管和排气管道连接管;各进气管道连接管和排气管道连接管分三路分别进入第一隔热板与锂电池仓的间隙空间、第一隔热板与第二隔热板的间隙空间、第二隔热板与第三隔热板的间隙空间以及第三隔热板与锂电池的间隙空间中;所述箱体外部还形成有第一散热材料层、第二散热材料层、第三散热材料层与第四散热材料层;且所述第一散热材料层为铝板层,第二散热材料层为石墨层,第三散热材料层为压敏胶粘剂层,第四散热材料层为散热膜层;所述第一散热材料层的厚度范围为0.15-0.42mm、第二散热材料层的厚度范围为0.28-0.47mm、第三散热材料层的厚度范围为0.29-0.31mm、第四散热材料层的厚度范围为0.15-0.42mm;该所述压敏胶粘剂层由以下重量份组分组成:丙烯酸酯类胶黏剂97.5份、异氰酸酯类交联剂0.1-0.3份、稀释剂25-48份、环氧类交联剂0.65-12份、偶氮化合物3.5-13份、松香树脂3-16份、N-亚硝基化合物6-13份、偶联剂0.25-2.5份、粘度为2500-3500cps的丙烯酸酯类的聚合物0.6-1.7份;且在所述第一散热材料层上均匀开设有若干个通气孔,各通气孔的孔径大小范围为0.4-1.2mm;所述第四散热材料层外侧形成有装饰材料层;在箱体正面还设置有用于进行人脸识别感应的人脸识别传感器、用于对产品运行进行控制的指纹识别器以及用于对外部光照强度进行实时感测的光感传感器;该人脸识别传感器、指纹识别器以及光感传感器与控制器电性连接。
2.如权利要求1所述的一种高智能锂电池散热系统,其特征在于:所述蓄水箱中设置有水泵机构组件和用于实时感测蓄水箱中水量大小的红外传感器;该水泵机构组件、红外传感器与控制器电性连接。
3.如权利要求1所述的一种高智能锂电池散热系统,其特征在于:所述无线通讯传输单元包括无线蓝牙单元、2.4G无线通讯单元、无线WiFi传输单元。
4.如权利要求1所述的一种高智能锂电池散热系统,其特征在于:所述蓄水箱中灌注有冷却介质;且该冷却介质成分是由质量比为93-97%的150N三类基础油,1.0-4.0%的二酚基丙烷,0.015%甲基硅油或甲基硅油酯,0.25%磷酸三甲酚酯,0.3%硫化聚异丁烯,100PPM的破乳剂T1001或LZ5957,以及0.2-0.3%的琥珀酸酯磺酸盐组成。
5.如权利要求1至4中任意一项权利要求所述的一种高智能锂电池散热系统,其特征在于:所述锂电池包括外壳、正极柱、负极柱、隔膜和电解液,所述电解液包括锂盐、碳酸亚乙烯酯、丙磺酸内酯、联苯和溶剂,所述外壳包括纵横布置的多个加强筋,所述正极柱具有正极柱保护帽,所述负极柱具有负极柱保护帽。
6.如权利要求1所述的一种高智能锂电池散热系统,其特征在于:所述箱体为长方体状;且长度范围为40-45cm;宽度范围为30-35cm;高度范围为40-60cm。
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